Identify the correct formula for Beryllium Phosphate.

Question options:

Be3(PO4)2

Be2(PO4)3

Be(PO4)2

BePO4

Answer : The correct option is, 7 m

Explanation :

Distance : It is defined as the how much distance is covered by an object during the motion. It is a scalar quantity that means it does not depends on the direction.

Displacement : It is defined as the change in the position of an object. It is a vector quantity that means it has magnitude and as well as direction.

According to the question,

The distance traveled by jesse towards east = 3.0 m

The distance traveled by jesse towards north = 4.0 m

The total distance traveled by jesse = 3.0 m + 4.0 m = 7.0 m

Hence, the distance traveled by jesse is, 7 m

Answer:The correct answer is option A.

Explanation

Mass of the iron pyrite= 20 grams

Volume water displaced by the iron pyrite = 4 mL

Density of iron pyrite=[tex]d_i=\frac{Mass}{Volume}=\frac{20 g}{4 mL}=5 g/mL[/tex]

[tex]d_g=4\times d_i[/tex](Given)

[tex]d_g=4\times 5 g/mL=20 g/mL[/tex]

Mass of gold = 20 g

Volume of water displaced by the 20 grams of water = V

[tex]D_g=20 g/mL=\frac{20 g}{V}[/tex]

V = 1 mL

20 grams of gold will displace 1 ml of water.So, the correct answer is option A.

The surface of a mirror is smoothly and therefore the rays of light are reflected with the same angle they hit the surface. The surface of a piece of wood on the other hand has a lot of microscopical imperfections and hence the rays of light are reflected in multiple directions.

The reflection in a mirror looks different from the reflection in wood because mirrors have smooth surfaces that reflect light at specific angles, while wood and other rough surfaces diffuse and reflect light in many different directions.

When we look at our reflection in a mirror, we see a clear and accurate representation of ourselves because mirrors have smooth surfaces that reflect light at specific angles. On the other hand, when we look at our reflection in wood or other rough surfaces, the light gets diffused and reflected in many different directions, causing distortions and a less accurate reflection.

He arranged the first periodic table?

Answer is: more L and H will be produced.

Balanced chemical reaction: B + K → L + H.

According to Le Chatelier's Principle, the position of equilibrium moves to counteract the change.

The position of equilibrium will move so that the concentration of B decreases again, by reacting more and produce L and H, reaction is going to be more in forward direction.

The electron configuration of an atom of Chlorine Cl (neutral Chlorine) is:

1s2 2s2 2p6 3s2 3p5

Now if the Chlorine becomes an ion, it becomes Cl-. So we can see that 1 electron is added therefore the new electron configuration is:

1s2 2s2 2p6 3s2 3p6

Answer:

In case if the pellets of the calcium chloride gets crushed.

Explanation:

When the pellets of calcium chloride get crushed it enhances the surface area of the compound. With the increase in surface area, the number of collisions in between the molecules of reactants increases. In the given case, the reactant molecules are water molecules and calcium chloride ions. In the procedure of dissolution, the calcium chloride ions get hydrated by the water molecules dipoles. As the frequency of the collision enhances, the activation energy gets lowered in order to begin the reaction.

Answer:

solid

Explanation:

When preparing dilute solutions of acid, carefully pour the acid into the water.

Explanation:

[tex]HA(s)+H_2O(l)\rightarrow H_3O^+(aq)+A^-(aq)[/tex]

So, from this, we conclude that when preparing dilute solutions of acid, carefully pour the acid into the water.

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The stoichiometric equation shows that 2 moles of H2 react with 1 mole of O2. In this scenario, 48 grams of O2 is equivalent to 1.5 moles. Therefore, 1.5 moles of O2 would react with 3 moles of H2, which is equivalent to 6 grams.

To solve this question, we must first understand the stoichiometric relationship that exists between H2 and O2 according to the given equation: 2 H2 (g) + O2 (g) --> 2 H2O (l). What this equation shows is that 2 moles of H2 react with 1 mole of O2.

Next, we must convert grams of O2 to moles, using its molar mass. The molar mass of O2 is 32 g/mol, so 48 grams of O2 is equivalent to 48 g / 32 g/mol = 1.5 mol.

Then we use the stoichiometric relationship to calculate the moles of H2 needed. As per the reaction, 1 mole of O2 reacts with 2 moles of H2, hence 1.5 moles of O2 would react with 2*1.5 = 3 moles of H2. Finally, convert the moles of H2 to grams, using its molar mass (2 g/mol). So, 3 mol * 2 g/mol = 6 g. Therefore, 6 grams of H2 are needed to react with 48 grams of O2.

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The answer to this question is It's difficult for employers to replace their entire work force.

The answer is A

Two covalent bonds between adjacent molecules

Hope it helps you

The atomic mass of the atom of aluminum having 13 protons and 14 neutrons is 27

Atomic mass of an atom is simply defined as the sum of the protons and neutron in the nucleus of an atom i.e

Atomic mass = proton + neutron

Now, we shall obtain the atomic mass of the atom of aluminum. Details below:

Atomic mass = proton + neutron

= 13 + 14

= 27

Thus, we can conclude that the atomic mass of the atom of aluminum is 27

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The names of ionic compounds have special endings for the second element or ion while the name of covalent compounds depends on the subscript of each of the elements in the compound.

Ionic compounds are usually made up of a cation and an anion. There is no special ending in the name of the cation but certain suffixes are used for the second element or ion in an ionic compound.

For instance, the second element in most ionic compounds have the ending "-ide". Typical examples are sodium oxide, magnesium nitride and calcium phosphide.

In naming covalent molecules, we need to be sure that the subscripts of the molecules are duly indicated. For instance, N2O5 is dinitrogen pentaoxide.

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Final answer:

The average energy associated with the atomic emission line of sodium with a wavelength of 590 nm is calculated using Planck's equation, resulting in an energy of approximately 3.37×10-19 Joules per photon.

Explanation:

The question asks for the calculation of the average energy (ΔE) associated with the atomic emission line of sodium, which has a wavelength of 590 nm. To calculate this, we use the Planck's equation ΔE = h⋅c / λ, where h is Planck's constant (6.626×10-34 J⋅s), c is the speed of light in a vacuum (3.00×108 m/s), and λ is the wavelength in meters.

To convert the wavelength from nanometers to meters, we use the conversion 590 nm = 590 × 10-9 m. Substituting the values into the equation gives us ΔE = (6.626×10-34 J⋅s) ⋅ (3.00×108 m/s) / (590×10-9 m), which calculates to an energy of about 3.37×10-19 Joules per photon.

Answer: ions

Explanation:

Answer 1: A gun shot residue is the powdery discharge that release after the firing process of the firearm. The powdery discharge consists of unburnt or partially burnt primer, propellants, fragments of the projectiles, cartilage cases  and residues present inside the firearm.

It is important for the forensic scientists so as to detect the culprit as these residues are left on the clothes and hands after firing. It can be used to identify the direction and distance of firing.

Answer 2: The complications associated with gunshot residue are:

1. The particles are very small and may exhibit low density they are likely to blow by wind so they may not be found at some crime scene.

2. As the powdery discharge consists of explosive particles in small amounts but on testing can explode and can cause harm.